EC:6.3.2.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:6.3.2.3 (glutathione synthetase)
678 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The glutamate analog, alpha-aminomethylglutaric acid, was synthetized by Michael addition of ammonia to 2-methylene glutaronitrile followed by hydrolysis of the intermediate alpha-aminomethylglutaryl nitrile; the analog cyclizes readily on heating to 2-piperidone-5-carboxylic acid. Sheep brain glutamine synthetase utilizes one isomer of DL-alpha-aminomethylglutarate at about 10% of the rate with L-glutamate. gamma-Glutamylcysteine synthetase uses both isomers of DL-alpha-aminomethylglutarate, preferentially acting on the same isomer used by glutamine synthetase. gamma-(alpha-Aminomethyl)glutaryl-alpha-aminobutyrate, prepared enzymatically with gamma-glutamylcysteine synthetase, was found to be a substrate and an inhibitor of glutathione synthetase. alpha-Aminomethylglutarate does not inhibit gamma-glutamyl cyclotransferase and gamma-glutamyl transpeptidase appreciably. When alpha-aminomethylglutarate was administered to mice, there were substantial decreases in the levels of glutamine, glutathione, glutamate, and glycine in the kidney, and of glutamine and glutamate in the liver, indicating that this glutamate analog is effective as an inhibitor of glutamine and glutathione synthesis in vivo, and suggesting that it may also inhibit other enzymes.
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PMID:alpha-Aminomethylglutarate, a beta-amino analog of glutamate that interacts with glutamine synthetase and the enzymes that catalyze glutathione synthesis. 0 41

The synthesis of glutathione in Escherichia coli K 12 was studied in crude, cell-free extracts. The pH optima and the apparent Km values for the substrates have been determined for both synthesizing enzymes, gamma-glutamylcysteine synthetase and glutathione synthetase. gamma-Glutamylcysteine synthetase was found to be approximately twice as active as glutathione synthetase. In a growing culture, the cellular level of GSH showed a considerable increase up to 6.6 mumol per ml cell pellet in the stationary growth phase. GSSG was not detectable. The levels of the enzymes remained constant, indicating that glutathione biosynthesis depends at least in the beginning on the availability of the component amino acids. The pathway is controlled by feedback inhibition and not by repression.
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PMID:Glutathione biosynthesis in Escherichia coli K 12. Properties of the enzymes and regulation. 23 47

The activities of gamma-glutamylcysteine synthetase and glutathione synthetase, the two enzymes required for glutathione synthesis, were determined as a function of age in lenses of three species of Old World higher primates: orangutan, pigtail monkey and olive baboon. These were compared to enzyme activities in lenses of two prosimians: mouse lemur and galago. gamma-Glutamylcysteine synthetase activity decreased as a function of age in all three Old World simians. The rate of decrease was greatest in the juvenile lenses. In contrast, the enzyme activity increased continuously with age in the galago lens. In the mouse lemur the enzyme activity increased per lens, but was constant when expressed as specific activity or as units per gram of lens. The loss of enzyme activity with age was limited to Old World higher primates apparently representing genetic change. Glutathione synthetase activity decreased logarithmically with age in the lenses of all five species.
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PMID:The effects of age on glutathione synthesis enzymes in lenses of Old World simians and prosimians. 135 6

Primary cultures of adult rat hepatocytes shift into the growth phase when plated at low density (LD). We used this model to examine changes in glutathione (GSH) metabolism, since cells undergoing active growth may be more susceptible to environmental toxins. When primary cultures of adult rat hepatocytes were plated on collagen or Matrigel-precoated dishes, cell number and GSH varied inversely. This density effect on cell GSH occurred as early as 2 h after plating, when the media contained 1 mM methionine, but was delayed until 20 h if the media contained only 0.5 mM cystine. The density effect on GSH synthesis occurred in the absence of serum, hormones, changes in cell volume, GSH efflux, ATP levels, and uptake of methionine or cystine and was blocked by cycloheximide or actinomycin D. When methionine was available, the cellular cysteine level was 65% higher at LD than at high density (HD). gamma-Glutamylcysteine synthetase (GCS) activity was 64% higher at LD than at HD. GSH synthetase activity was unaffected by density. Both the increase in cellular cysteine levels and GCS activity were blocked by cycloheximide and actinomycin D. When cells were cocultured using cluster plates and Transwell inserts for 4 h, cell GSH of HD cells was unaffected by the density of cocultured cells; however, LD cells exhibited significantly lower GSH and GCS activity when cocultured with HD cells than when cocultured with LD cells. Cysteine levels were elevated in the LD cells regardless of the density of cocultured cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Loss of suppression of GSH synthesis at low cell density in primary cultures of rat hepatocytes. 147 63

Glutathione and its related enzymes were measured for normal and cataractous human lenses. Glutathione decreased progressively with the development of cataracts. This decrease was more pronounced in the nucleus than in the capsule-epithelia of cataractous lenses. Glutathione reductase in nuclear extracts was relatively unchanged during cataract progress, while glutathione synthetase was significantly low in the advanced stages of cataracts. gamma-Glutamylcysteine synthetase was not measurable in the nuclei of cataractous lenses.
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PMID:Glutathione and glutathione-related enzymes in human cataractous lenses. 194 85

The low activity level of lenticular gamma-glutamylcysteine synthetase appears to be an evolutionary phenomenon restricted to higher primates. Rapid reduction with age of the activity of both enzymes (gamma-glutamylcysteine synthetase and glutathione synthetase) required for glutathione synthesis in the human lens was demonstrated in an earlier study. The activities of gamma-glutamylcysteine synthetase and glutathione synthetase, the two enzymes responsible for glutathione synthesis, were determined in 39 lenses from the rhesus monkey (Macaca mulatta) as a function of age. The ages ranged from 137 day old fetuses to a 34 year old monkey. Glutathione synthetase activity decreased 8-fold (units/g lens), 7-fold (units/mg soluble protein) and 2-fold (units/lens) over the age span studied. gamma-Glutamylcysteine synthetase activity decreased 3-fold (units/g lens), 4-fold (units/mg soluble protein) and less than 2-fold (units/lens) over the same age span. A small increase in gamma-glutamylcysteine synthetase activity (units/lens) from embryonic lenses to birth and one year of age was followed in later years by a decrease in activity. In adults, the overall ratio of glutathione synthetase activity to gamma-glutamylcysteine synthetase activity was 42:1 as compared to 77:1 for the human and 2:1 to 4:1 for common domestic species. The aging study data indicate that the rhesus monkey lenticular glutathione synthesis system appears to be a good model for the human lens enzymic system.
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PMID:Activity of glutathione synthesis enzymes in the rhesus monkey lens related to age: a model for the human lens. 286 16

The activities of five enzymes of glutathione metabolism were determined in lenses from cataract-resistant and cataract-prone (Emory) mouse variants at three different ages (5 weeks, 10 weeks and 6 months). The enzymes included those required for glutathione synthesis, gamma-glutamylcysteine synthetase and glutathione synthetase, as well as glutathione-S-transferase, glutathione peroxidase and glutathione reductase. The differences in the activities of the five enzymes in the two mouse variants were not remarkable at any of the three ages. Activity of each enzyme was noted to be in excess of the preceding one in this integrated metabolic pathway, with the exception of glutathione reductase. gamma-Glutamylcysteine synthetase appears to be the pacesetting enzyme of this metabolic scheme in the mouse lens. The activity of each enzyme was compared with that earlier reported for human, rabbit and dog lenses.
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PMID:Glutathione metabolism in lenses of Emory and cataract-resistant mice: activity of five enzymes. 287 Aug 75

Glutathione functions in catalysis, metabolism, transport, and reductive processes and in protection of cells by destruction of free radicals, reactive oxygen intermediates, and other toxic compounds of endogenous and exogenous origin. It also functions as a storage and transport form of cysteine. Depletion of glutathione (effectively accomplished by inhibition of its synthesis) increases sensitivity to radiation and to certain toxic compounds and is of value in combination with radiation therapy or chemotherapy in situations in which cell selectivity can be achieved. Increased cellular levels of glutathione protect cells against radiation and certain toxic compounds. Glutathione levels can be increased by administration of cysteine or of glutathione, but these approaches are not entirely satisfactory. Cellular glutathione levels can be increased by supplying substrate for gamma-glutamylcysteine synthetase or for glutathione synthetase. L-2-Oxothiazolidine-4-carboxylate is well transported into many cells and is converted by 5-oxoprolinase to cysteine, a substrate of gamma-glutamylcysteine synthetase. gamma-Glutamylcysteine and related compounds are effectively transported, especially into renal cells, thus providing substrate for glutathione synthetase; higher than normal levels of glutathione can be achieved because this enzyme is not significantly inhibited by glutathione, whereas gamma-glutamylcysteine synthetase is feedback-inhibited. Derivatives of glutathione that are effectively transported into cells (glutathione itself is not) offer another means of increasing glutathione levels. The monoethyl ester of glutathione (in which the glycine carboxyl group is esterified) is well transported in vivo into liver and kidney and into cultured fibroblasts and lymphoid cells. Glutathione levels much higher than usual can be obtained by this procedure, which protects lymphoid cells against the lethal effects of irradiation and mice against acetaminophen, and which therefore may be a relatively safe way to increase cellular resistance to radiation and certain toxic compounds.
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PMID:Intracellular cysteine and glutathione delivery systems. 372 29

Spectrophotometric assay methods are described for glutathione synthetase, gamma-glutamylcysteine synthetase and gamma-glutamyl transpeptidase of erythrocytes. The contents of these enzymes in normal human erythrocytes are reported. Erythrocyte glutathione synthetase is inhibited by ADP; this inhibition is competitive with respect to ATP. gamma-Glutamylcysteine synthetase is subject to feedback inhibition by GSH, and is also inhibited by NADH, and to a lesser extent by NAD(+) and NADPH. This enzyme is irreversibly inactivated by cysteamine.
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PMID:Studies in the enzymology of glutathione metabolism in human erythrocytes. 438 10

The high levels of both enzymes of glutathione synthesis found in the infant human lens rapidly reached lower levels by age 10, and thereafter the rate of decrease diminished. Glutathione synthetase activity in the 6 month old lens was six-fold (units/g lens), four-fold (units/mg soluble protein) and two-fold (units/lens) higher than that in the 83 year old, clear human lens. gamma-Glutamylcysteine synthetase activity in the 6 month old lens was sixteen-fold (units/g lens), ten-fold (units/mg soluble protein) and six-fold (units/lens) higher than that in the 83 year old, clear human lens. When lenses from the young adult beagle, rabbit, bovine, and humans are compared, glutathione synthetase activity (units/g lens) varies by about two-fold. gamma-Glutamylcysteine synthetase activity (units/g lens) is quite similar in the first three species, whereas the enzyme activity is more than a magnitude less in young adult human lenses, and becomes much less with increasing age and in a high proportion of life-support system organ donors. The enzyme activity was undetectable in a few of the latter lenses. Loss of activity was not due to increased susceptibility to heat denaturation. The low levels of the enzyme, and total loss in some situations, suggest that gamma-glutamylcysteine synthetase may be an Achilles' Heel of human lens metabolism.
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PMID:Activity of glutathione synthesis enzymes in human lens related to age. 613 16

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